Understanding the fundamental chemical properties of a compound is the first step for any industrial chemist or formulator looking to leverage its potential. 3-Chloro-2-hydroxypropanesulfonic Acid Sodium Salt, known by its acronym CHPS-NA and CAS number 126-83-0, is a fascinating organic chemical intermediate with a profile that lends itself to a broad spectrum of industrial applications. Its unique molecular structure is the key to its versatility, making it a compound of interest for manufacturers across various sectors.

At its core, CHPS-NA is an organosulfur compound. Its chemical structure is characterized by a three-carbon propane backbone, featuring a chlorine atom at the C-3 position, a hydroxyl group at the C-2 position, and a sulfonic acid group (as its sodium salt) attached to the C-1 position. This arrangement imbues CHPS-NA with a dual nature: the chlorine and hydroxyl groups offer reactive sites for substitution and etherification reactions, while the sodium sulfonate group provides significant hydrophilicity and water solubility. This combination is precisely what makes it so valuable as a functional monomer and chemical intermediate.

The reactivity of the chlorine atom, being a good leaving group, allows CHPS-NA to participate in nucleophilic substitution reactions. Similarly, the hydroxyl group can undergo esterification or etherification. These reactions are fundamental in creating more complex molecules, such as specialized surfactants. The sulfonic acid group, being a strong acid, readily forms salts and contributes to the compound's excellent solubility in water, a critical attribute for many aqueous-based industrial processes. This inherent solubility also means that when CHPS-NA is used in formulations, it helps maintain homogeneity.

The primary applications for CHPS-NA stem directly from these chemical properties. It is widely recognized as an important functional monomer in the synthetic polymer industry. By incorporating CHPS-NA into polymer chains, manufacturers can introduce desirable properties such as increased hydrophilicity, improved ionic character, or enhanced dispersibility. This is particularly beneficial in the development of specialty polymers for various advanced applications. Furthermore, CHPS-NA serves as a key intermediate in the preparation of surfactants, where its structure contributes to the amphiphilic balance required for effective surface activity. It also finds utility in the modification of starch and in the formulation of drilling fluid loss reduction materials, highlighting its broad industrial impact.

For businesses seeking to leverage these capabilities, sourcing high-quality CHPS-NA from a reliable manufacturer is essential. Our commitment as a supplier ensures that you receive a product that meets stringent purity standards, enabling optimal performance in your applications. We encourage R&D scientists and procurement specialists to inquire about our CHPS-NA offerings to explore how this versatile chemical can benefit your product development and manufacturing processes. Reach out to us for a quote and detailed technical information.